Minerals & Metals

Incoloy 800 HT bar is an ultra-high purity, neutron-resistant material designed for extreme radiation and thermal shock environments. Engineered to meet the rigorous demands of nuclear fusion, space propulsion, and advanced reactor technologies, this high-performance nickel-iron-chromium superalloy is optimized for use in critical applications requiring enhanced thermal stability and radiation resistance. Key Features of Incoloy 800H T Bar Neutron Damage Tolerance: With a He/dpa ratio <10 appm/0.1 dpa at 650°C (14 MeV neutrons), Incoloy 800HT exhibits exceptional resistance to neutron damage, making it ideal for nuclear fusion and space applications. Plasma Erosion Resistance: The alloy’s sputtering yield is reduced by 60% compared to 316L in deuterium plasma, providing excellent resistance to plasma erosion in fusion reactors. Helium Embrittlement Resistance: Nano-oxide dispersion technology traps helium bubbles, maintaining more than 15% elongation post-irradiation, crucial for long-term service in neutron-rich environments. Thermal Shock Stability: Incoloy 800HT withstands 500 cycles of 200°C/s heating/cooling rates without cracking, ensuring reliable performance in extreme thermal conditions. Ultra-High Vacuum Compatibility: The outgassing rate is less than 1×10⁻¹¹ Torr·L/s/cm² after a 400°C bake-out, making it suitable for semiconductor applications and other UHV environments. Surface Finish: Mirror-polished finish with a surface roughness (Ra ≤ 0.1 μm) and passivation according to ASTM A967, ensuring corrosion resistance and enhanced durability. Applications of Incoloy 800HT Bar Incoloy 800HT bar is specifically designed for applications in industries that demand superior resistance to high radiation, extreme thermal shock, and other challenging conditions: Nuclear Fusion: The material is used in first-wall heat sink components in ITER-like tokamaks, handling heat fluxes of up to 10 MW/m² in divertor cassette supports. Space Propulsion: Incoloy 800HT is ideal for nuclear thermal rocket (NTR) fuel element cladding, which must withstand hydrogen compatibility at temperatures of 2500°C, and for re-entry vehicle leading edges subjected to hypersonic glide conditions. Advanced Reactors: The alloy is used in molten salt reactor (MSR) pump shafts, where compatibility with LiF-BeF₂ coolant is critical. Semiconductor Industry: Essential for extreme ultraviolet (EUV) lithography chamber components that require ultra-high vacuum stability and resistance to thermal stresses.

4J29 alloy is a high-performance, nickel-iron alloy specifically designed for applications requiring precise control over thermal expansion. Known for its low coefficient of thermal expansion (CTE) and excellent dimensional stability, 4J29 is used in industries where accuracy and reliability are crucial. Its ability to maintain its shape and size under varying temperature conditions makes it particularly valuable in high-precision applications, such as sensors in both the aerospace and automotive industries. 4J29 alloy rods are used extensively to manufacture high-precision sensors and components that need to maintain accuracy even under extreme environmental conditions. The alloy’s composition and properties ensure that it is highly suited to tasks requiring thermal stability, mechanical strength, and corrosion resistance. Applications of 4J29 Alloy Rods Aerospace Sensors The aerospace industry demands precision and reliability for all its components, especially for sensors. 4J29 alloy rods play a key role in manufacturing sensors for aircraft, satellites, and other aerospace systems. These sensors are exposed to extreme temperature fluctuations as well as high levels of mechanical stress. The low CTE of 4J29 alloy ensures that sensors remain accurate in such conditions, offering unparalleled dimensional stability in both hot and cold environments. Additionally, 4J29’s corrosion resistance ensures that the sensors remain functional in environments with exposure to moisture, radiation, and chemicals. Automotive Sensors Automotive sensors made from 4J29 alloy rods are used for a range of applications including engine management, exhaust systems, and safety features. The automotive industry requires components that can withstand the heat generated by internal combustion engines, exhaust systems, and other high-temperature zones within the vehicle. The thermal stability of 4J29 alloy ensures that automotive sensors provide consistent, accurate readings despite temperature fluctuations, thus ensuring the efficient functioning of systems like fuel injection, exhaust management, and vehicle diagnostics. High-Precision Pressure and Temperature Sensors In both aerospace and automotive applications, pressure sensors and temperature sensors are critical components. These sensors are responsible for monitoring critical parameters, ensuring that vehicles or aircraft operate within safe and efficient ranges. The dimensional stability of 4J29 alloy ensures that these sensors remain accurate under varying temperature conditions, providing consistent performance even in extreme environments. Whether in a jet engine or an automotive exhaust system, 4J29 alloy ensures the longevity and reliability of the sensor systems. Precision Gauges and Measuring Instruments 4J29 alloy rods are also used in the manufacturing of precision gauges and measuring instruments. These devices require high accuracy in both readings and structural integrity over time. 4J29 alloy, with its consistent thermal expansion properties, offers manufacturers a reliable material for producing instruments that require accurate measurements in a range of environments. Whether used in aerospace, automotive, or industrial contexts, these gauges continue to provide accurate readings without failure due to temperature fluctuations. Sensor Components and Housing 4J29 alloy rods are not only used for the internal elements of sensors but also for their structural components. These may include sensor housings, mounting structures, and protective casings that require stability and resilience. The material’s ability to resist dimensional changes due to heat ensures that the sensor integrity is preserved over time. This is crucial when sensors are subject to vibrations, shocks, and extreme temperature conditions, which are common in both automotive and aerospace environments. User Demands and Requirements High Precision and Dimensional Accuracy One of the most critical requirements for users in aerospace and automotive industries is dimensional accuracy. Sensors and components must provide accurate measurements and operate within very tight tolerances. 4J29 alloy’s low coefficient of thermal expansion makes it the ideal material for these high- precision applications, ensuring that parts do not expand or contract in ways that could compromise performance. Thermal Stability Aerospace and automotive components experience extreme temperature variations during operation. Whether it’s the high heat of an engine or the cold temperatures encountered at high altitudes, components made from 4J29 alloy maintain their size and shape, ensuring that sensors and other critical systems continue to function accurately and reliably. Corrosion Resistance In both aerospace and automotive applications, sensors and components are often exposed to harsh environments, including moisture, chemicals, and pollutants. 4J29 alloy is highly corrosion-resistant, which helps prolong the lifespan of sensors and ensures they continue to perform accurately without being affected by environmental exposure. This resistance to corrosion is especially important in aerospace, where components may be exposed to radiation, chemicals, and high- altitude conditions. Mechanical Strength and Durability Aerospace and automotive components must withstand mechanical stresses such as vibration, pressure, and impact. 4J29 alloy’s high mechanical strength ensures that sensors and related components continue to perform under these stresses. Its durability helps extend the lifespan of sensors and reduces the need for frequent replacements, thus improving the cost-effectiveness of the systems. Customization for Specific Applications Users often require specific forms and dimensions of 4J29 alloy rods to meet the unique needs of their applications. 4J29 alloy rods can be customized in various shapes, sizes, and lengths to accommodate specific sensor designs. Whether a customer needs thin rods for fine sensors or larger bars for structural applications, 4J29 can be tailored to meet these needs. High-Performance Reliability Both aerospace and automotive industries require high-performance reliability from their components. 4J29 alloy meets these demands by offering stable performance over a wide range of temperatures and environmental conditions. Manufacturers and engineers in these industries rely on the consistent high-performance characteristics of 4J29 alloy to ensure that critical systems operate reliably and accurately.

4J32 is a specialized nickel-iron alloy known for its excellent corrosion resistance and thermal stability, making it an ideal choice for electronics and semiconductor applications. This alloy is primarily composed of nickel and iron with a small percentage of other elements, which contribute to its low coefficient of thermal expansion (CTE) and its ability to maintain dimensional accuracy across a wide temperature range. The 4J32 alloy is designed for situations where consistent performance and resistance to corrosion are critical, particularly in environments that involve heat, moisture, or other corrosive elements. The unique properties of 4J32 alloy wire make it invaluable for electronic components, semiconductor devices, and sensor systems. The durability and reliability of this material ensure that it can withstand harsh environments while maintaining its structural integrity and electrical properties over time. Applications of 4J32 Alloy Wires Semiconductor Manufacturing In semiconductor manufacturing, the thermal stability and corrosion resistance of 4J32 alloy wires are essential for processes such as chip production, wire bonding, and component interconnections. During semiconductor device fabrication, wires are often exposed to elevated temperatures, chemicals, and potential corrosive substances. 4J32 alloy's resilience ensures that semiconductor devices can maintain their functionality and high-performance characteristics even under these challenging conditions. The low thermal expansion of 4J32 also ensures that wires maintain their structural integrity during temperature fluctuations, preventing any distortion that could impact the performance of delicate semiconductor components. This makes 4J32 alloy ideal for bonding wires and connection leads used in microelectronics, integrated circuits, and LED devices. Electronics and Electrical Wiring Electronics and electrical components require materials that can withstand high temperatures and corrosive environments while maintaining excellent conductivity. 4J32 alloy wires are particularly suitable for high-performance wiring systems used in sensors, power supplies, and circuitry. The corrosion resistance of the alloy is crucial in protecting the integrity of electrical connections, especially in applications where wires are exposed to harsh conditions like moisture, high humidity, or chemicals. In addition, the low CTE of 4J32 alloy ensures that it remains stable when exposed to the thermal cycling experienced in electronics. This makes 4J32 alloy wires essential for high-precision electrical systems that demand high reliability and long-lasting performance. Precision Sensing and Measurement Devices The corrosion-resistant properties of 4J32 alloy wires make them ideal for use in sensing systems that measure physical parameters such as temperature, pressure, or humidity. These sensors are often employed in aerospace, automotive, and industrial applications, where environmental stability and accuracy are paramount. The durability of 4J32 alloy ensures that these sensors remain functional even in corrosive environments, ensuring reliable operation and accurate readings over time. Connector Pins and Leads in Electronics The use of connector pins and leads in electronics requires materials that can handle continuous operation without failure. 4J32 alloy wire’s resistance to oxidation and corrosion makes it a perfect candidate for connector pins and leads in various electronics and semiconductor devices. Whether used in connectors for computer hardware, mobile devices, or automotive circuits, the strength and durability of 4J32 ensure that electrical connections remain secure and reliable for the lifetime of the product. Aerospace and Military Electronics Electronics used in aerospace and military applications are subject to extreme conditions, including high temperatures, humidity, and exposure to various chemicals. In these environments, reliable, long-lasting performance is essential. 4J32 alloy wires meet these demands by providing thermal stability and corrosion resistance under such harsh conditions. Its use in high-reliability aerospace electronics, such as navigation systems, communication devices, and power electronics, ensures that components continue to operate without degradation, even in demanding environments. User Demands and Requirements Corrosion Resistance Users in the electronics and semiconductor industries require materials that can withstand exposure to moisture, chemicals, and high-humidity environments without degrading over time. Corrosion resistance is a key requirement for materials used in these fields, and 4J32 alloy meets this need. Its ability to resist oxidation ensures that electronics and semiconductor components continue to perform effectively without the risk of corrosion-related failure, enhancing the reliability and lifetime of devices. Dimensional Stability and Low Thermal Expansion Dimensional stability is a crucial property for electronics and semiconductor applications, where precise measurements and uniform behavior are essential. The low coefficient of thermal expansion (CTE) of 4J32 alloy ensures that it does not expand or contract significantly with changes in temperature, maintaining its form and function even under extreme thermal conditions. This makes it ideal for applications that involve temperature fluctuations, where precise performance is required. High-Temperature Performance Electronics and semiconductor components often operate in environments where they are exposed to high temperatures. Whether in power electronics, LED devices, or circuitry, 4J32 alloy offers excellent high-temperature performance, making it a valuable material in devices that require thermal stability without compromising on electrical conductivity or mechanical strength. Reliability and Longevity In industries like semiconductor manufacturing and aerospace electronics, the long- term reliability of components is essential. Durable, corrosion-resistant materials like 4J32 alloy are crucial for meeting these demands, as they help ensure that electrical connections remain intact over the product’s lifespan. This reduces the need for frequent maintenance and replacement, thus improving the cost- effectiveness and efficiency of systems. Electrical Conductivity For many electronic and semiconductor applications, maintaining high electrical conductivity is a key requirement. 4J32 alloy’s unique composition ensures that it provides optimal electrical conductivity while maintaining resistance to corrosion and thermal expansion. This makes it suitable for wiring systems, sensor leads, and connector pins used in high-performance electronics and semiconductor devices.

Incoloy 925 bars are advanced nickel-based alloys designed to offer excellent corrosion resistance and high strength in challenging environments. With their exceptional performance at high temperatures and resistance to a wide range of aggressive chemicals, Incoloy 925 bars are the ideal choice for various industrial applications, especially in the chemical processing, aerospace, and oil & gas sectors. Key Properties of Incoloy 925 Bars High-Temperature Resistance: Incoloy 925 bars maintain their structural integrity and strength at elevated temperatures, often exceeding 1,000°C, depending on the specific alloy grade. This makes them suitable for high-heat applications, where other materials may fail. Corrosion and Oxidation Resistance: The high content of chromium and nickel in Incoloy 925 bars provides outstanding resistance to a wide range of corrosive environments, including acidic and oxidizing conditions, ensuring long-lasting durability. Excellent Mechanical Strength: With their high tensile strength and yield strength, Incoloy 925 bars provide durability under high mechanical stress, even in extreme industrial settings. Thermal Stability and Creep Resistance: These alloys are known for their ability to resist deformation (creep) and maintain their stability during prolonged exposure to high temperatures, enhancing reliability in high-temperature applications. Weldability and Machinability: Incoloy 925 bars can be easily welded and machined using appropriate techniques, offering flexibility for various fabrication and construction needs. Applications of Incoloy 925 Bars Petrochemical and Refining Industries: Incoloy 925 bars are used in furnace tubes, heat exchangers, and piping systems that are exposed to high temperatures, corrosive gases, and acidic environments. Their resistance to oxidation makes them ideal for demanding chemical processes. Power Generation: Incoloy 925 bars are commonly used in boiler components, nuclear reactors, and steam generators, where high heat resistance and mechanical strength are essential to ensure smooth operations. Aerospace Components: Used in jet engines and exhaust systems, Incoloy 925 bars provide the necessary stability and corrosion resistance required in high-temperature, high-stress aerospace environments. Marine and Chemical Processing Equipment: Incoloy alloys are highly resistant to saltwater, brine, and acidic conditions, making them ideal for valves, fittings, and other components exposed to aggressive marine environments. Oil and Gas Industry: Incoloy 925 bars are widely used in well tubing, casing, and completion equipment, offering resistance to sour gas and other harsh conditions found in deep-water exploration and production.

Product Description High-temperature alloys, also known as "superalloys," are materials based on nickel, iron, and cobalt that are designed to withstand extreme temperatures, typically above 600°C, while maintaining strength and structural integrity. These alloys exhibit excellent oxidation and corrosion resistance, along with outstanding fatigue performance and fracture toughness, making them ideal for high-stress, high-temperature environments. A key characteristic of high-temperature alloys is their single austenite structure, which offers excellent organizational stability and reliability across various temperature ranges. Due to their high degree of alloying, high- temperature alloys are crucial in industries such as aviation, aerospace, petrochemical, and power generation. High-temperature alloys are divided into: Iron-based alloys: Generally used at temperatures up to 750–780°C. Nickel-based alloys: These alloys, including GH3030 , are often used in jet engines and industrial gas turbines due to their ability to perform at even higher temperatures. Cobalt-based alloys: Used in specialized applications where high strength is required. Nickel-based alloys, such as GH3030, are particularly valued in the aerospace and energy industries for their ability to operate at the highest temperature ranges. Key Features of GH3030 High Temperature Alloy Bar High-Temperature Strength: GH3030 maintains structural integrity even at temperatures exceeding 600°C, making it ideal for high-temperature environments. Excellent Oxidation Resistance: The high chromium content provides superior oxidation resistance, which extends the service life of components in high-heat applications. Corrosion Resistance: Resistant to corrosive environments, including acidic and oxidizing conditions, GH3030 performs well in harsh environments like those found in the aerospace and petrochemical industries. Good Fatigue Performance: With strong fatigue resistance, GH3030 is suitable for components that are subjected to cyclic stresses over extended periods. High Creep Resistance: The alloy resists deformation (creep) under sustained load at high temperatures, an essential property for components such as turbine blades and furnace parts. Weldability: GH3030 can be welded using standard techniques, making it suitable for fabrication into complex structures and components. Manufacturing Process Melting The process begins with the melting of high-purity raw materials in an electric arc furnace or induction furnace. This step removes impurities and ensures the desired chemical composition. Casting After the melting process, the alloy is cast into ingots. These ingots undergo a homogenization heat treatment to eliminate segregation and ensure uniformity throughout the material. Forging The ingots are heated above 1100°C and then hot-forged to achieve the required shape and structure. This step enhances the mechanical properties by refining the alloy’s microstructure. Hot Rolling The material is then hot-rolled to reduce thickness and achieve the final bar dimensions. This process also improves the alloy's directional properties, which are critical for its mechanical strength. Annealing The rolled bars are annealed at temperatures between 900–950°C to relieve internal stresses and improve ductility. This step ensures that the material is ready for further machining. Finishing Finally, the bars are cut to specified lengths and undergo surface treatments, which may include grinding, polishing, or coating to improve resistance to environmental factors.

Below is a detailed introduction to the YZH WHEN1500 fixed hydraulic demolition arm, covering its features, advantages, and case studies: Main parameters of  YZH WHEN1510 Stationary Pedestal Rockbreaker Boom： Model No. WHEN1510 Boom weight(without hammer) kg 17500 Max.Horizontal Working radius mm 17250 Max.vertical working radius mm 14640 Min.vertical working radius mm 940 Max.Height mm 9300 The Features of  YZH WHEN1510 Stationary Pedestal Rockbreaker Boom： Intelligent Multi-Mode Control: Supports cab operation, wireless/wired remote control, and fiber optic + 5G remote video monitoring with a control range of 10-20km. Paired with a high-performance controller, it enables precise positioning and flexible control, offering both wired and wireless dual-mode operation. Robust and Durable Structure: Features high-strength rectangular steel boom beams, large-diameter cylinders, and reinforced pins. The slewing motor incorporates buffer braking. Equipped with a high-performance shock absorption system, core components utilize international brands, structural parts undergo strength verification and aging treatment, and welding processes are mature. High Adaptability: Modular design allows interchangeable attachments like breakers and grabs. Suitable for open-pit/underground mining, metallurgy, cement, and other applications. Capable of long-term operation in harsh environments including corrosion, explosion-proof zones, and high altitudes. Wide horizontal working range with selectable rotation angles.  Optimized Parameters: Overall weight approximately 1500-1550kg. Hydraulic hammer rod diameter compatible with mainstream specifications. Selectable rotation angles of 170° or 360°. Compatible with 880V motor drive. High protection rating. The  Benefits of YZH WHEN1510 Stationary Pedestal Rockbreaker Boom：  Safety and Environmental Protection: Remote operation keeps personnel away from hazardous zones, eliminating manual blockage clearance risks. Electric drive produces zero exhaust emissions, reduces energy consumption by over 60% compared to traditional diesel equipment, and operates at low noise levels. High Efficiency & Low Consumption: Reduces production line downtime by 5%-20%, boosts crusher output by 20%. Operating costs are only 1/6th of fuel expenses for equivalent-power excavators, with failure rates reduced by 85% compared to traditional diesel equipment and low maintenance expenses. Superior Quality & After-Sales Support: Certified with ISO9001 and EU CE standards, offering turnkey solutions, 24/7 online customer service, and support for customized requirements. The Application of  YZH WHEN1510 Stationary Pedestal Rockbreaker Boom： 1. Gold Mine of China Gold Group: Used for secondary crushing at the jaw crusher feed inlet, eliminating material jams and manual clearance risks. Production line downtime reduced by 15%, primary crushing output increased by 18%, and energy costs cut by 65%. 2. Ansteel Group Metallurgical Plant: Adapted for high-temperature slag crushing in ladle furnaces. Remote operation prevents heat exposure hazards. Modular attachment replacement enables both crushing and grabbing functions. Production line failure rate decreased by 80%, maintenance costs reduced by 70%. 3. Russian Open-Pit Quarry: Used for crushing oversized ore at screen openings, it operates stably in low-temperature, high-dust environments. With a remote control range of 15km, the equipment runs continuously without failures, delivering over 50% higher overall efficiency than traditional equipment.

Minimum Order: 1 bags

What is High Temperature Alloy Bar? High-temperature alloy refers to a type of metal material based on iron, nickel and cobalt, which can work for a long time at high temperatures above 600℃ and under certain stress; and has high high-temperature strength, good oxidation resistance and corrosion resistance, good fatigue performance, fracture toughness and other comprehensive properties. High-temperature alloy is a single austenite structure, with good organizational stability and reliability at various temperatures. Based on the above performance characteristics, and the high degree of alloying of high-temperature alloy, it is also called "superalloy", which is an important material widely used in aviation, aerospace, petroleum, chemical industry, and ships. According to the matrix elements, high-temperature alloys are divided into iron-based, nickel-based, cobalt-based and other high- temperature alloys. The use temperature of iron-based high-temperature alloys can generally only reach 750~780℃. For heat-resistant parts used at higher temperatures, nickel-based and refractory metal-based alloys are used. Nickel- based high-temperature alloys occupy a particularly important position in the entire field of high-temperature alloys. It is widely used to manufacture the hottest parts of aviation jet engines and various industrial gas turbines. Key Features High-Temperature Strength: GH4163, Nimonic263, C263, and NCK20 alloys are engineered to withstand extreme temperatures while maintaining structural integrity. These alloys perform exceptionally well in high-stress, high- temperature environments. Oxidation and Corrosion Resistance: One of the main advantages of high- temperature alloys is their ability to resist oxidation and corrosion, even when exposed to hot gases and other aggressive environments. This ensures longevity and reliability in critical applications like gas turbines and aircraft engines. Fatigue and Fracture Toughness: The alloys exhibit excellent fatigue resistance and fracture toughness, making them ideal for components subject to repeated loading, like turbine blades and rotor components. High Durability: High-temperature alloys like GH4163 and Nimonic263 are known for their exceptional durability, making them the preferred choice for long- lasting applications in the aerospace industry. Manufacturing Process 1. Melting The process begins with the melting of high-purity raw materials in an electric arc furnace or induction furnace. The molten metal is then refined to remove impurities and achieve the desired chemical composition. 2. Casting After refining, the alloy is cast into ingots. These ingots are typically subjected to a homogenization heat treatment to eliminate segregation and enhance uniformity. 3. Forging The ingots are then hot-forged at temperatures above 1100°C to achieve the desired shape and grain structure. This step is crucial as it refines the microstructure and improves the mechanical properties of the alloy. 4. Hot Rolling Following forging, the material undergoes hot rolling to reduce the thickness and achieve the final dimensions of the bars. This process also enhances the directional properties of the alloy. 5. Annealing To relieve internal stresses and improve ductility, the rolled bars are annealed at temperatures around 900-950°C. This step ensures the material is ready for final machining and use. 6. Finishing The final step involves cutting the bars to the required lengths and applying any necessary surface treatments. This may include grinding, polishing, or coating to protect against environmental factors

What is the Incoloy Strip? The Incoloy Strip is a high-performance material made from Incoloy 800 alloy steel, known for its exceptional thermal properties, corrosion resistance, and versatility. Widely used in critical applications like compressor disks and machine manufacturing, this strip offers superior performance in high- temperature and harsh environmental conditions. Features: Product Name: Incoloy Strip Material: Incoloy 800 Alloy Steel Strip Coefficient Of Thermal Expansion: 13.9 µm/m·K Processing Services: Decoiling, Cutting, Bending Special Use: Compressor Disks, Machine Manufacturing Corrosion Resistance: Excellent Chemical Position: Fe-Ni-Cr Alloy Applications: The Incoloy Strip's coefficient of thermal expansion is 13.9 µm/m·K, making it highly resistant to thermal stress and thermal fatigue. This makes it an excellent choice for use in high-temperature applications, such as in the aerospace and power industries. Thanks to its executive standard of ASTM, you can be assured that the DLX Incoloy Strip meets the highest quality standards. Additionally, this product is made in China JiangSu, which is known for its high-quality manufacturing. The DLX Incoloy Strip's shape is a strip, which makes it versatile and easy to use in a variety of manufacturing processes. Its special use in compressor disks and machine manufacturing makes it an ideal choice for use in a variety of industries, including transportation, energy, and manufacturing. Overall, the DLX Incoloy Strip is an excellent choice for anyone looking for a high-performance alloy strip that can be used in a variety of applications. Whether you're a manufacturer looking for a reliable and versatile product to use in your manufacturing processes or an engineer looking for a high- performance material for your next project, the DLX Incoloy Strip is an excellent choice.

Minimum Order: 15 packs

Locomotora minera de 14 toneladas para transporte minero The locomotive is a new product specially designed for large mines. It applies IGBT speed control way, realizes smooth starting and low failure rate, and is a new- generation energy efficient product. Main features include: small outer diamensions, short wheel base, small turn radius, high speed and strong traction force. V-shape rubber damps are used on this locomotives in order to bear viration and impact from lengthways, vertical and transverse directons. The sails are elastic rubber plates which can ensure a reduced shock in operation. total weight (t) : 14 ton Track gauge (mm) : 600.762.900 Traction (KN) : 26.68 Max. Traction (KN) : 34.3 Speed(km/h) : 12.87 Power (KW) : 52*2 Dimensions Length(mm) : 4800 Width(mm) : 1060,1222or 1360 Height(mm) : 1700 Wheelbase (mm) : 1700 Wheel diameter (mm) : 760 Min Curve radius (m) : 12 Controller : Resistencia or IGBT Braking method : Mechanical Advantages of our product 1.Using high-quality steel plates, special rust removal process make sure it more anti-corrosion and suitable for harsh mining environment. 2. Producing motors ourselves, using high lever insulation material and pure copper, ensure the powerful traction force, and suitable for harsh mining environment. 3.Gear anastomosis surface to reach more than 80%, which is far more exceeding the standard. 4.Professionally designed and adjusted frame ensure safe driving and avoids falling off rails. 5.A variety of braking methods can be choose, air brake, hydraulic brake, electric brake, mechanical brake to ensure the safety drive. 6. 40 years richful experience with the ability to design and make customized product according to your requirements. 7. Proving factory online-visiting Factory Test Mining Locomotive test 1.Before Running the locomotive,carry out gear debugging, lighting, gear, and brake adjustment etc.To ensure the normal operation of the locomotive. 2.Carry out a tensile test before leaving the factory to ensure the load performance of the locomotive meets the standard. Our design standards generally exceed the national standard by 10%-20%. 3.Carry out different type running test before leaving the factory to ensure the performance and normal operation of the whole locomotive. It can adapt to various harsh conditions under simulated working conditions. Motor test The motor has to go through many inspection procedures before leaving the factory, and each motor has to be carried out with load running experiments. Explosion-proof motors are carried out with water pressure test. All the test of motor is to ensure that can adapt to harsh working conditions. Cases 1. A good feedback of our lithium battery locomotive from a client of Latin America 2. In order to solve the exist problems of lead-acid batteries. More than 30 lead-acid battery electric locomotives in this large mining were changed into lithium battery electric locomotives, which improved the work enthusiasm and production efficiency of employees, reduced costs,and more environment- friendly. 3. The mining rock drill car designed by Sunward Co., has a small size and simple structure, so the space for placing the lithium battery on the body is very limited. According to the limitation size, our company design a lithium power supply power plan, which perfectly solves the problem of lithium power supply space. In order to adapt to the special industrial and mining environment and improve transportation efficiency, a batch of 2.5-ton lithium battery electric locomotives are designed to Myanmar Clients. FAQ What's your product advantages? We have more 40 years experience in this field so that we could design or produce the locomotive as your requirement. We could also provide online service to teach you how to operate and maintain the locomotive. The most important thing that we produce the main part of the locomotive- The traction motors. we could guarantee the power of the locomotive. 1.Pre-sales Service: The wide product range enables us to provide our customers with individual machines or complete processing plants. Based on our customer's request and budget, our experts make efficient and reliable solutions, and we produce strictly follow customers' order. What's more, every customer has the chance to visit the working machine in the site before placing the order. 2.After-sales Service: Experienced technicians guidance is available on the phone, and on the internet. One or more engineers will be dispatched to the quarry site to help install the customer's plants.Necessary training about machine daily maintenance to local workers is provided also. 3.Methods of Payment: T/T (Telegraphic Transfer) or Western Union or L/C at sight Handling time for an order: Within 10 days supplied from stock 4.Shipping method: Sample order: we suggest Courier express like DHL/UPS/FEDEX or by air Bulk order: we suggest by air or by sea. 5.Quality Control: We have our own experienced QC. There will be strict inspection and testing for every order before shipping out. 6.After Services: a. Our sales team will response for your question within 24 hours (Holiday is Excluded) b. Technical Support will be available in any time c. Free replacement will provide once the failure confirmed caused by our product quality

Minimum Order: 1 bags

What is Incoloy 800H alloy wire? Incoloy 800H alloy wire is a premium high-temperature wire designed for use in demanding applications such as heat exchangers and furnace components. Manufactured with precision and high-quality standards, this alloy wire offers exceptional corrosion resistance, thermal stability, and mechanical strength at elevated temperatures. Available in diameters ranging from 0.2mm to 8mm, this alloy wire is ideal for industries where performance in harsh, high-temperature environments is essential. Chemical composition invar alloy Key Features High Temperature Resistance: With excellent heat resistance, Incoloy 800H maintains its strength and stability even in temperatures up to 1100°C (2012°F). Corrosion Resistance: Provides excellent resistance to oxidation and corrosion, particularly in high-temperature and aggressive environments such as chemical processing and power generation. Versatility: Available in diameters from 0.2mm to 8mm, suitable for a wide range of applications including heat exchangers, furnace components, and other industrial machinery. Mechanical Strength: Retains superior mechanical strength at elevated temperatures, ensuring long-lasting durability in high-stress applications. Weldability and Fabrication: Easily weldable and can be fabricated into various forms to meet specific design requirements. Incoloy 800H alloy wire Details Incoloy 800H alloy wire Compariosn Product Applications: Heat Exchangers: Incoloy 800H wire is commonly used in the construction of heat exchangers where its high resistance to oxidation and thermal stability are crucial. Furnace Components: Ideal for furnace components and industrial ovens that require resistance to high temperatures and corrosive gases. Chemical Processing: Employed in reactors and pipelines where corrosion resistance to acids, alkalis, and other chemicals is required. Aerospace and Power Generation: Incoloy 800H wire is also used in aerospace turbine components and gas turbines where high temperature and strength are necessary. Marine Engineering: Used in marine environments for components exposed to seawater and high temperatures. Incoloy 800H alloy wire Process Incoloy 800H alloy wire Testing Equipment Packaging & Shipping: We ensure that the Incoloy 800H wire is securely packaged to prevent damage during transit. We offer custom packaging options based on the size of the order, and provide various shipping methods for timely delivery. CHANGZHOU DLX ALLOY CHANGZHOU DLX ALLOY CHANGZHOU DLX ALLOY ABOUT US About DLX ALLOY CHANGZHOU DLX ALLOY CO, LTD was established in 2002 and has got ISO9001 International Quality Management System Certificate and SGS Certificate. Our factory is professional in researching and producing special alloy material. From melting, drawing, heat treatment, finishing and testing .We offer nickel based, copper-based, and iron-based alloys, including super alloy, welding materials, anti-corrosion alloy, precision alloy, FeCrAl alloy, NiCr alloy, CuNi alloy, thermocouple and etc, in the form of wire, strip, ribbon, bar, tube, plate. About Our factory Our 12,000㎡ factory is equipped with complete capabilities for research, production, testing, and packaging. We strictly adhere to ISO 9001 standards in our production processes, with an annual output of 1,200 tons. This ensures that we meet both quantity and quality demands. Furthermore, all products undergo rigorous simulated environment testing including high temperature, high pressure, and corrosion tests before being dispatched, ensuring they meet customer specifications. We also provide chemical analysis reports for every FeCrAl alloy, NiCr alloy, and other products purchased. For all our clients, we offer timely and multilingual after-sales support and technical consulting, helping you resolve any issues swiftly and efficiently. Client Visits Building Stronger Partnerships We support all kinds of testing: FAQ Q1: What are your working hours and how can I contact you? A1: We are available Monday to Saturday from 7:30 AM to 5:00 PM (Beijing time, GMT+08:00). During public holidays (May 1-3, Oct 1-7, and Chinese New Year), please email us for inquiries. Q2: Do you provide free samples of Incoloy 800H wire? A2: Yes, we can provide free samples for testing, with the buyer responsible for shipping costs. Q3: What are your payment terms? A3: We accept payments via T/T, L/C, D/A, D/P, Western Union, MoneyGram, and PayPal. Q4: What is the lead time for samples and bulk orders? A4: Sample lead time is typically 7 days after payment confirmation. For bulk orders, the lead time may vary depending on order size and specifications. Q5: How can I place an order for Incoloy 800H wire? A5: You can place an order by contacting us via email, phone, or through our website. Our team will assist in selecting the correct specifications and guide you through the ordering process.

Minimum Order: 20 square metres

Porduct Name Aerospace Zirconium Mesh model Zr-1、Zr-3、R60702、R60705 等 Mesh Size 5Mesh-200Mesh Wire diameterthickness 2.0mm-0.03mm Weaving Method Plain Weave, Twill Weave Density 6.49 g/cm3 Melting point 1850 ℃  Characteristic Zirconium wire woven mesh is a high melting point metal woven mesh with a density of 6.49g/cm3, a melting point of 1850 ℃, and a boiling point of 4370 ℃. The surface of pure zirconium mesh is prone to forming an oxide film, which has a metallic luster and therefore has a similar appearance to steel. Zirconium wire mesh has excellent corrosion resistance, and its corrosion resistance is superior to titanium. It is insoluble in hydrofluoric acid and aqua regia. In high-temperature environments, it can react with non-metallic elements and many metallic elements to form solid solution compounds (such as in the preparation of zirconium nitride wire mesh metal matrix composites) Application The amazing corrosion resistance, extremely high melting point, ultra-high hardness and strength of nuclear grade zirconium mesh can be applied in aerospace, military, vacuum high-temperature equipment, petrochemical, pharmaceutical, mechanical manufacturing and other fields. The purity of the nuclear grade zirconium mesh provided by Oufulang Rare and Precious Alloy Wire Mesh Company is 99.95%. The surface mesh of the product is uniform, without broken wires or loopholes, with amazing corrosion resistance, extremely high melting point, ultra-high hardness and strength. It can be applied in aerospace, military, vacuum high-temperature equipment, petrochemical, pharmaceutical, mechanical manufacturing and other fields. Contact Information M.P:+86-13315865785 Email:estrellayue@ofolan.com WhatsApp:+86-13315865785

Minimum Order: 1 bags

Porduct Name Military Zirconium Mesh model Zr-1、Zr-3、R60702、R60705 等 Mesh Size 5Mesh-200Mesh Wire diameterthickness 2.0mm-0.03mm Weaving Method Plain Weave, Twill Weave Density 6.49 g/cm3 Melting point 1850 ℃  Characteristic Zirconium wire woven mesh is a high melting point metal woven mesh with a density of 6.49g/cm3, a melting point of 1850 ℃, and a boiling point of 4370 ℃. The surface of pure zirconium mesh is prone to forming an oxide film, which has a metallic luster and therefore has a similar appearance to steel. Zirconium wire mesh has excellent corrosion resistance, and its corrosion resistance is superior to titanium. It is insoluble in hydrofluoric acid and aqua regia. In high-temperature environments, it can react with non-metallic elements and many metallic elements to form solid solution compounds (such as in the preparation of zirconium nitride wire mesh metal matrix composites) Application The amazing corrosion resistance, extremely high melting point, ultra-high hardness and strength of nuclear grade zirconium mesh can be applied in aerospace, military, vacuum high-temperature equipment, petrochemical, pharmaceutical, mechanical manufacturing and other fields. The purity of the nuclear grade zirconium mesh provided by Oufulang Rare and Precious Alloy Wire Mesh Company is 99.95%. The surface mesh of the product is uniform, without broken wires or loopholes, with amazing corrosion resistance, extremely high melting point, ultra-high hardness and strength. It can be applied in aerospace, military, vacuum high-temperature equipment, petrochemical, pharmaceutical, mechanical manufacturing and other fields. Contact Information M.P:+86-13315865785 Email:estrellayue@ofolan.com WhatsApp:+86-13315865785

Minimum Order: 1 bags

Product Name Tantalum Plate Mesh Model Ta1 Ta2 Densit 16.6 g/cm3 Melting Point 2996 ℃  Characteristic (1) Tantalum mesh has good mechanical properties, stable chemical properties, and a large dielectric constant of the surface oxide film, making it a key modern functional material. The corrosion resistance of tantalum mesh is the same as that of glass. At medium temperatures (about 150 ℃), only fluorine, hydrofluoric acid, sulfur trioxide (including fuming sulfuric acid), strong alkali, and certain molten salts have an impact on tantalum mesh. Its corrosion resistance is better than that of titanium mesh and zirconium mesh. (2) The melting point of tantalum mesh is 2990 ℃, making it the third most refractory metal after tungsten and rhenium. Although tantalum mesh has a high melting point and boiling point, its electron work function is lower than that of refractory metals such as tungsten mesh and molybdenum mesh. Due to its weak ability to emit electrons, it has been applied in electric vacuum technology. Application (1) Tantalum mesh can withstand high temperatures, has good strength and stiffness, and is a high-quality material for making heating components, insulation components, and loading vessels for vacuum high-temperature furnaces (2) Tantalum mesh niobium mesh is used in the aerospace industry to produce engine components for aerospace aircraft, rockets, submarines, and more, such as combustion chambers, combustion mesh ducts, turbopumps, and so on. (3) Tantalum wire mesh niobium wire mesh is a high-quality aerospace material used for rocket accelerator nozzles, spacecraft propulsion systems, nozzle valves, and more. (4) Tantalum mesh can be used to make capacitors and lining for armor piercing bullets. (5) Tantalum mesh has a small neutron capture cross-section, high thermal conductivity and strength, and is used as a nuclear fuel cladding material, nuclear fuel alloy additive, and heat exchanger structural material in atomic reactors. Contact Information M.P:+8613315865785 Email:estrellayue@ofolan , .com Whatsapp:++86-13315865785

Minimum Order: 1 bags

Product Name Tantalum Wire Mesh Model Ta1 Ta2 Densit 16.6 g/cm3 Melting Point 2996 ℃  Characteristic (1) Tantalum mesh has good mechanical properties, stable chemical properties, and a large dielectric constant of the surface oxide film, making it a key modern functional material. The corrosion resistance of tantalum mesh is the same as that of glass. At medium temperatures (about 150 ℃), only fluorine, hydrofluoric acid, sulfur trioxide (including fuming sulfuric acid), strong alkali, and certain molten salts have an impact on tantalum mesh. Its corrosion resistance is better than that of titanium mesh and zirconium mesh. (2) The melting point of tantalum mesh is 2990 ℃, making it the third most refractory metal after tungsten and rhenium. Although tantalum mesh has a high melting point and boiling point, its electron work function is lower than that of refractory metals such as tungsten mesh and molybdenum mesh. Due to its weak ability to emit electrons, it has been applied in electric vacuum technology. Application (1) Tantalum mesh can withstand high temperatures, has good strength and stiffness, and is a high-quality material for making heating components, insulation components, and loading vessels for vacuum high-temperature furnaces (2) Tantalum mesh niobium mesh is used in the aerospace industry to produce engine components for aerospace aircraft, rockets, submarines, and more, such as combustion chambers, combustion mesh ducts, turbopumps, and so on. (3) Tantalum wire mesh niobium wire mesh is a high-quality aerospace material used for rocket accelerator nozzles, spacecraft propulsion systems, nozzle valves, and more. (4) Tantalum mesh can be used to make capacitors and lining for armor piercing bullets. (5) Tantalum mesh has a small neutron capture cross-section, high thermal conductivity and strength, and is used as a nuclear fuel cladding material, nuclear fuel alloy additive, and heat exchanger structural material in atomic reactors. Contact Information M.P:+8613315865785 Email:estrellayue@ofolan , .com Whatsapp:++86-13315865785

Minimum Order: 1 bags